QGraphicsView实现简易地图2『瓦片经纬度』

前文链接：QGraphicsView实现简易地图1『加载离线瓦片地图』
地图采用GCJ02 Web 墨卡托投影，最小坐标：(-180.00000000000000,-85.05112877980655)，最大坐标：(180.00000000000000,85.05112877980655)。瓦片地图单张图片像素大小为256*256，经度均分256像素，但纬度分布不均匀，需要公式计算。
1、动态演示效果

2、静态展示图片

核心代码
1、数据定义GeoData.h

#pragma once
#include <QMetaType>/** 地理几何数据* 瓦片地图坐标投影：GCJ02 Web 墨卡托投影*/#define PIXMAP_SIZE 256// 瓦片坐标
struct TileCoord
{TileCoord(double _x, double _y) : x(_x), y(_y) {}double x;double y;
};// 经纬度坐标
struct GeoCoord
{GeoCoord() = default;GeoCoord(double _lon, double _lat) : lon(_lon), lat(_lat) {}double lon;  // 经度double lat;  // 纬度
};
Q_DECLARE_METATYPE(GeoCoord)

2、MapUtility类

#pragma once
#include <QPointF>
#include "DataStruct/GeoData.h"class MapUtility
{
public:// 场景坐标转经纬度static GeoCoord geoCoordFromScene(QPointF scenePos, int level);private:// 场景坐标转瓦片坐标（瓦片坐标系）static TileCoord tileCoordFromScene(QPointF scenePos, int level);// 场景坐标转所在瓦片像素点坐标static QPointF tilePixelCoordFromScene(QPointF scenePos, int level);
};

#include "MapUtility.h"
#include "TileUtility.h"GeoCoord MapUtility::geoCoordFromScene(QPointF scenePos, int level)
{TileCoord tileCoord = tileCoordFromScene(scenePos, level);QPointF tilePixelCoord = tilePixelCoordFromScene(scenePos, level);return TileUtility::pixelToLonLat(tilePixelCoord.x(), tilePixelCoord.y(), tileCoord.x, tileCoord.y, level);
}TileCoord MapUtility::tileCoordFromScene(QPointF scenePos, int level)
{int tileX = std::floor(scenePos.x() / PIXMAP_SIZE);int tileY = std::floor(scenePos.y() / PIXMAP_SIZE);return TileCoord(tileX, tileY);
}QPointF MapUtility::tilePixelCoordFromScene(QPointF scenePos, int level)
{TileCoord tileCoord = tileCoordFromScene(scenePos, level);double left = tileCoord.x * PIXMAP_SIZE;	// scenePos所在瓦片的左侧位于场景中的坐标double top = tileCoord.y * PIXMAP_SIZE;		// scenePos所在瓦片的上侧位于场景中的坐标return QPointF(scenePos.x() - left, scenePos.y() - top);
}

3、TileUtility类

class TileUtility
{friend class MapUtility;private:/*** 将地图层级下瓦片的像素点转换到经纬度* 瓦片地图左上角为(0, 0)点* @param pixelX   瓦片像素点X* @param pixelY   瓦片像素点Y* @param tileX    瓦片坐标X* @param tileY    瓦片坐标Y* @param level    瓦片层级* @return         经纬度坐标*/static GeoCoord pixelToLonLat(double pixelX, double pixelY, int tileX, int tileY, int level);static double pixelXToLon(double pixelX, double tileX, int level);static double pixelXToLat(double pixelY, double tileY, int level);static double mathSinH(double value);/*** 获取地图层级下X/Y轴上的瓦片数量* @param level    瓦片层级* @return 		  瓦片数量*/static int mapSize(int level);
};

GeoCoord TileUtility::pixelToLonLat(double pixelX, double pixelY, int tileX, int tileY, int level)
{double lon = pixelXToLon(pixelX, tileX, level);double lat = pixelXToLat(pixelY, tileY, level);return GeoCoord(lon, lat);
}double TileUtility::pixelXToLon(double pixelX, double tileX, int level)
{const double pixelXToTileAddition = pixelX / PIXMAP_SIZE;const double lon = (tileX + pixelXToTileAddition) / mapSize(level) * 360 - 180;return lon;
}double TileUtility::pixelXToLat(double pixelY, double tileY, int level)
{const double pixelYToTileAddition = pixelY / PIXMAP_SIZE;const double lat = qAtan(mathSinH(M_PI * (1 - 2 * (tileY + pixelYToTileAddition) / mapSize(level)))) * 180.0 / M_PI;return lat;
}double TileUtility::mathSinH(double value)
{return (qExp(value) - qExp(-value)) / 2;
}int TileUtility::mapSize(int level)
{return pow(2, level);
}

4、场景鼠标移动事件

void MapScene::mouseMoveEvent(QGraphicsSceneMouseEvent *mouseEvent)
{m_coordPos = MapUtility::geoCoordFromScene(mouseEvent->scenePos(), m_curLevel);emit geoCoordChanged(m_coordPos);
}